Consider the circuit shown in Figure. 2.00 N 3.00 Ω 1.00 N 18.0 V 4.00 N 1. The equivalent resistance of the above circuit is = 2. The total current supplied by the battery is = A 3. The potential differences across 32, 10 is= V
Consider the circuit shown in Figure. 2.00 N 3.00 Ω 1.00 N 18.0 V 4.00 N 1. The equivalent resistance of the above circuit is = 2. The total current supplied by the battery is = A 3. The potential differences across 32, 10 is= V
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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![Consider the circuit shown in Figure.
2.00 N
3.00 N
1.00 N
18.0 V
4.00 N
1. The equivalent resistance of the above circuit is =
2. The total current supplied by the battery is =
%3D
A
3. The potential differences across 32, 12 is=
V
4. The Power dissipated in the 22 is =
w & Power
dissipated 4N is =
W
5. The power dissipated across 12 is =
W & Power
dissipated 3Q is =
W](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5e8657a8-89bf-49f9-ba71-8691ac5aeed3%2F80ec343d-b2d0-490f-8afe-40267d3f2f56%2Fv0cszwo_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Consider the circuit shown in Figure.
2.00 N
3.00 N
1.00 N
18.0 V
4.00 N
1. The equivalent resistance of the above circuit is =
2. The total current supplied by the battery is =
%3D
A
3. The potential differences across 32, 12 is=
V
4. The Power dissipated in the 22 is =
w & Power
dissipated 4N is =
W
5. The power dissipated across 12 is =
W & Power
dissipated 3Q is =
W
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